共查询到19条相似文献,搜索用时 125 毫秒
1.
CHI Shan QIAN Hao LI Tianyong WANG Xumin LIU Cui REN Lei TANG Xuexi LIU Tao 《海洋学报(英文版)》2014,33(9):139-151
In the past two decades, many studies have focused on the classification within genus Laminaria, ultimately trying to divide it into two subgroups or genera: Laminaria and Saccharina. A significant debate still surrounds the question of its division, as the conflicting phylogenetic hypotheses that have resulted from the classification studies are based on different taxon sampling, molecular markers, or analysis methods. It is aimed at elucidate the molecular phylogeny within Laminaria and Saccharina. The nine species of Laminariales are sampled from northern Asia and Europe, and 23 new sequences in the nuclear, plastid, and mitochondrial genomes are determined to identify their taxonomic status. The phylogenetic analyses of 71 species are performed, including representatives from six of the seven families of the order Laminariales, based on three separate data sets. An evidence is provided to strongly support a clear split that maintains the two recognized genera, Laminaria and Saccharina, with Laminaria appearing to be the ancestor group. Further, analyses indicate that all taxa in Saccharina and Laminaria did not form a monophyletic lineage, instead Laminariaceae and Lessoniaceae grouped together interlacedly, and Costariaceae appeared as the sister taxon of the Lessoniaceae–Laminariaceae clade. In the phylogenetic analysis, mitochondrial c oxidase I(COI) sequences appeared to be the most credible molecular marker which was more befitting than nuclear encoded internal transcribed spacer(ITS) and plastid encoded rbcL for establishment of Laminariales systematics. It is the most comprehensive phylogeny of the order Laminariales, and contributes to an enhanced understanding and estimation of the phylogenetic relationships for the economically important seaweeds, Laminaria and Saccharina. 相似文献
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The mitochondrial genome(mitogenome)analysis is a significant tool for investigating the evolutionary history of metazoan animals.The family Pandalidae is a diverse caridean group containing mainly deep-sea species.Until May 302019,only two complete mitogenomes are available in GenBank.Here we present the complete mitogenome sequences of two deep-sea pandalid shrimps,Heterocarpus ensifer and Bitias brevis through Illumina sequencing.The mitochondrial genomes were determined to be 15939 bp and 15891 bp long,and both consist of 13 protein-coding genes(PCGs),23 transfer-RNA genes(tRNAs),two ribosomal-RNA genes(rRNAs),and one control region.The nucleotide composition is biased toward adenine and thymine.Overall,the gene contents and arrangements are consistent with the pancrustacean ground pattern.The alignment of the control regions of four pandalids reveals a conserved sequence block(CSB)(104 bp in length,average GC%=29.47%and 69.23%similarity).A phylogenetic analysis based on 51 Caridea complete mitogenomes revealed that the deep-sea pandalid shrimps are situated an intermediate lineage,with a tendency to originated from those living in shallow sea area. 相似文献
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A molecular phylogenetic analysis was undertaken to evaluate the present systematic status of commercially familiar Pleuronectidae fishes in the northwestern Pacific Ocean. We sequenced a 529 bp fragment of the mitochondrial DNA (mtDNA) COl gene from 34 individuals of these familiar flatfishes from 11 species of nine genera collected in China and Japan. Genetic relationships among haplotypes of specimens from 11 species for COI gene data were reconstructed using the neighbour-joining method and the maximum parsimony (MP) method. The resulting molecular phylogeny of the 11 species, with a few exceptions, supported the existing taxonomy which was based largely on the morphological characteristics. The most noteworthy findings were that the genus Pleuronichthys diverged before deriving of the common ancestor for the other species; the stone flounder, Kareius biocoloratus, should belong to the genus Platichthys with the latin name Platichthys biocoloratus and the genus Verasper was not the extraordinary differ- entiation from the other species in family Pleuronectidae. The resultant phylogenetic trees were also consistent with multiple origins of direct development within family Pleuronectidae. New proof not only for further illuminating the multiple origins of Pleuronectidae but also for confirmation of the evolutionary relationships among groups in the family will be supported. 相似文献
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Phylogenomic analysis of transcriptomic sequences of mitochondria and chloroplasts of essential brown algae (Phaeophyceae) in China 总被引:1,自引:1,他引:0
JIA Shangang WANG Xumin LI Tianyong QIAN Hao SUN Jing WANG Liang YU Jun REN Lufeng YIN Jinlong LIU Tao WU Shuangxiu 《海洋学报(英文版)》2014,33(2):94-101
The chloroplast and mitochondrion of brown algae (Class Phaeophyceae of Phylum Ochrophyta) may have originated from different endosymbiosis. In this study, we carried out phylogenomic analysis to distinguish their evolutionary lineages by using algal RNA-seq datasets of the 1 000 Plants (1KP) Project and publicly available complete genomes of mitochondria and chloroplasts of Kingdom Chromista. We have found that there is a split between Class Phaeophyceae of Phylum Ochrophyta and the others (Phylum Cryptophyta and Haptophyta) in Kingdom Chromista, and identified more diversity in chloroplast genes than mitochondrial ones in their phylogenetic trees. Taxonomy resolution for Class Phaeophyceae showed that it was divided into Laminariales-Ectocarpales clade and Fucales clade, and phylogenetic positions of Kjellmaniella crassi-folia, Hizikia fusifrome and Ishige okamurai were confirmed. Our analysis provided the basic phylogenetic relationships of Chromista algae, and demonstrated their potential ability to study endosymbiotic events. 相似文献
6.
Endogenous viral elements in algal genomes 总被引:1,自引:1,他引:0
WANG Liang WU Shuangxiu LIU Tao SUN Jing CHI Shan LIU Cui LI Xingang YIN Jinlong WANG Xumin YU Jun 《海洋学报(英文版)》2014,33(2):102-107
Endogenous viral elements (EVEs) are host-genomic fragments originated from viral genomes. They have been found universally in animal and plant genomes. Here we carried out a systematic screening and analy-sis of EVEs in algal genomes and found that EVEs commonly exist in algal genomes. We classified the EVE fragments into three categories according to the length of EVE fragments. Due to the probability of sequence similarity by chance, we ignored the potential function of medium-length EVE fragments. However, long-length EVE fragments probably had capability to encode protein domains or even entire proteins, and some short-length EVE fragments had high similarity with host's siRNA sequences and possibly served functions of small RNAs. Therefore, short and long EVE fragments might provide regulomic and proteomic novelty to the host's metabolism and adaptation. We also found several EVE fragments shared by more than 3 algal genomes. By phylogenetic analysis of the shared EVEs and their corresponding species, we found that the integration of viral fragments into host genomes was an ancient event, possibly before the divergence of Chlorophytes and Ochrophytes. Our findings show that there is a frequent genetic flow from viruses to algal genomes. Moreover, study on algal EVEs shed light on the virus-host interaction in large timescale and could also help us understand the balance of marine ecosystems. 相似文献
7.
The dinoflagellate genus Margalefidinium has been split from Cochlodinium as a new genus recently and Margalefidinium fulvescens is one of the five Margalefidinium species. Margalefidinium fulvescens is toxic and has been reported from the coastal waters of USA, Canada, Mexico, China, Japan, Indonesia, Korea, Pakistan and Spain. Here we provide the morphological and phylogenetic characterization for an isolate of it from the Jiaozhou Bay, Qingdao, China. Our results showed that the vegetative cells were subspherical to ellipsoidal, 34–60 μm in length, and 19–41 μm in width. Both single cell forms and colonies in chains of 2, 4, or 8 cells were observed in cultures, but chain forms with 2 or 4 cells were observed more often in the field samples. The cingulum was rather deep, encircling the cell approximately twice, but the sulcus was rather narrow, surrounding the cell about one turn. The nucleus was spherical and located at the central epicone. The chloroplasts were granular, brownish, and scattered peripherally. An orange pigmented body also appeared in the epicone. The apical groove appeared vase-like as previously described. Under epi-fluorescence microscopy, a pumpkin-like structure was clearly observed, in which cells were embedded. Cells were observed to exit from the structure, which led us to a hypothesis that the structure may provide cells a shelter to avoid predation or to respond to other stresses. The phylogenetic analyses based on partial LSU rDNA sequences indicated that M. fulvescens from the Jiaozhou Bay was grouped with M. fulvescens populations from other origins and closely related to the clade of M. polykrikoides.Our morphological observations and phylogenetic analyses together confirmed the presence of M. fulvescens in China and our monitoring has also observed the species dominant in the dinoflagellate community of the Jiaozhou Bay in the early autumn of 2015, which alerted us to continually monitor this bloom-forming species in the region. 相似文献
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Codium, one of the largest marine green algal genera, is difficult to delimit species boundary accurately based on morphological identification only. DNA barcoding is a powerful tool for discriminating species of seaweeds. The plastid elongation factor TU(tuf A) is considered as maker to perform DNA barcoding of green algal species than rbc L gene due to universality and rapid evolution rate. We conducted DNA barcoding application to Codium specimens from the Jeju Island, Korea to overcome the limit of morphological identification and to confirm the species diversity. As a result of applying tuf A marker, we newly generated fifty-five tuf A barcodes to resolve eight species. Tuf A marker exhibited 6.1%–21.8% interspecific divergences, wider than the gap of rbc L exon 1,3.5%–11.5%. Molecular analysis of rbc L exon 1 sequences of Codium revealed eight distinct species like tuf A analysis separated in five phylogenetic groups. DNA barcoding of the genus Codium using tuf A marker is more helpful to overcome the limit of morphological identification, and this is more potential to reveal cryptic species and to resolve the relationships among subspecies than rbc L analysis alone. The complement of tuf A barcoding and rbc L analyses including morphology for the genus Codium in the northwestern Pacific will give much more reliable achievement for discovering species diversity and resolving the phylogenetic relationships. 相似文献
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Phylogenomic analysis of transcriptomic sequences of mitochondria and chloroplasts for marine red algae (Rhodophyta) in China 总被引:1,自引:1,他引:0
JIA Shangang WANG Xumin QIAN Hao LI Tianyong SUN Jing WANG Liang YU Jun LI Xingang YIN Jinlong LIU Tao WU Shuangxiu 《海洋学报(英文版)》2014,33(2):86-93
The chloroplast and mitochondrion of red algae (Phylum Rhodophyta) may have originated from different endosymbiosis. In this study, we carried out phylogenomic analysis to distinguish their evolutionary lin-eages by using red algal RNA-seq datasets of the 1 000 Plants (1KP) Project and publicly available complete genomes of mitochondria and chloroplasts of Rhodophyta. We have found that red algae were divided into three clades of orders, Florideophyceae, Bangiophyceae and Cyanidiophyceae. Taxonomy resolution for Class Florideophyceae showed that Order Gigartinales was close to Order Halymeniales, while Order Graci-lariales was in a clade of Order Ceramials. We confirmed Prionitis divaricata (Family Halymeniaceae) was closely related to the clade of Order Gracilariales, rather than to genus Grateloupia of Order Halymeniales as reported before. Furthermore, we found both mitochondrial and chloroplastic genes in Rhodophyta under negative selection (Ka/Ks〈1), suggesting that red algae, as one primitive group of eukaryotic algae, might share joint evolutionary history with these two organelles for a long time, although we identified some dif-ferences in their phylogenetic trees. Our analysis provided the basic phylogenetic relationships of red algae, and demonstrated their potential ability to study endosymbiotic events. 相似文献
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Complete mitochondrial genomes(mitogenomes) can provide useful information for phylogenetic relationships,gene rearrangement, and molecular evolution. In the present study, two newly sequenced mitogenomes of Ocypodoidea(Cleistostoma dilatatum and Euplax sp.) were reported for the first time, which are 15 444 bp and16 129 bp in length, respectively. Cleistostoma dilatatum is the first species in the family Camptandriidae whose complete mitogenome was sequenced. Each mitogenome contains an entire ... 相似文献
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线粒体基因组的获得传统上通常是采取长PCR结合鸟枪法或步移法测序。近年来新一代测序技术蓬勃发展,以454,Solexa和SOLiD测序平台为代表。应用新一代高通量测序技术(Solexa)并结合巢式PCR扩增,完成了大室别藻苔虫(Membranipora grandicella)的线粒体基因组全序列。大室别藻苔虫线粒体基因组是目前国际上获得的第一条苔藓动物软壁亚目线粒体基因组全序列,基因组全长为15861 bp,比已完成的4种苔藓动物线粒体基因组略大。大室别藻苔虫线粒体基因组包含13个蛋白质编码基因、2个核糖体RNA基因和20个转运RNA基因。通过与已测得的苔藓动物进行比较,发现目前已完成的5个苔藓动物线粒体基因组的基因排列顺序显著不同。苔藓动物线粒体基因组基因排列的比较,今后可能会成为探讨该类群系统演化关系的重要信息来源。 相似文献
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三疣梭子蟹(Portunus trituberculatus)作为重要的海洋经济动物,其常见体色(头胸甲)为茶绿色。近年来在我国沿海海域海捕三疣梭子蟹中开始出现体色为紫色的一类梭子蟹,除体色不同外,二者表型特征并无显著差异。对两种体色三疣梭子蟹不同个体的线粒体COI和16S rRNA基因进行了序列比对分析以判定二者之间的亲缘关系。结果发现COI和16S rRNA基因在两种体色三疣梭子蟹群体中的核苷酸序列一致性分别为99.87%和99.88%,表明紫色三疣梭子蟹并未发生亚种的分化,即紫色和茶绿色群体属于同一个种。并利用GenBank数据库检索了梭子蟹科其他15种海产蟹的16S rRNA序列,进行了序列同源性比对分析和分子系统学方面的探讨,为梭子蟹种属分类学研究提供分子依据。 相似文献
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尾索动物线粒体基因组特征比较及分子系统发育 总被引:1,自引:1,他引:0
为全面揭示尾索动物线粒体基因组的基本特征,作者系统分析了12种尾索动物的线粒体基因组全序列,尾索动物线粒体基因组所有的基因均在同一链上编码,这与脊椎动物、头索动物线粒体基因组的基因分布特征显著不同.与后生动物线粒体基因组标准的基因组成相比,尾索动物线粒体基因组存在转运 RNA基因的增加以及部分物种 atp8基因的缺失.在尾索动物线粒体基因组中发生了大规模的基因重排,即使在同属物种的线粒体基因组中,也存在主编码基因的基因重排及基因缺失.尾索动物线粒体基因组蛋白质编码基因的起始密码子、终止密码子及氨基酸长度存在明显差异.2个玻璃海鞘(Ciona intestinalis 和 C. savignyi)线粒体基因组12个蛋白质编码基因的 Ka/Ks 比值都低于1(0.0927~0.6752),显示出一定的负选择.在所有的主编码基因中, nad5基因和nad4基因的变异位点最多,可以作为备选的分子标记,用于分析尾索动物不同物种之间的生物多样性.基于线粒体基因组的系统发育分析,支持尾索动物在科级的亲缘关系为:(((柄海鞘科 Pyuridae+芋海鞘科 Styelidae)+(((三段海鞘科Polyclinidae+星骨海鞘科Didemnidae)+簇海鞘科Clavelinidae)+玻璃海鞘科Cionidae))+长纹海鞘科Ascidiidae)+海樽科Doliolidae. 相似文献
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藤壶是潮间带生态、幼体发育以及生物防污损研究中重要的模式生物。目前,线粒体基因组学的发展有助于从线粒体基因组水平上更好地理解系统发育关系。本研究获得东方小藤壶Chthamalus challengeri完整线粒体基因组,大小为15358bp的环状分子。与藤壶亚目其它物种相比,东方小藤壶非编码区的长度较长,而基因区的长度则相近。东方小藤壶线粒体基因组A+T含量为70.5%。现有藤壶物种的线粒体基因组中存在起始和终止密码子的变化。同属的东方小藤壶和触肢小藤壶C. antennus具有共同的基因排列。然而,小藤壶科中不同属之间却具有不同的基因排列,包括两个tRNA基因出现易位,一个基因块出现倒置。值得注意的是,与以往藤壶亚目物种不同,小藤壶属两个物种的srRNA和lrRNA基因都在重链上编码。小藤壶科中进化树的拓扑结构与基因排列证据相互支持,系统发育分析表明小藤壶科是单系群,而藤壶科和古藤壶科则是多系群。 相似文献
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Ying Zhang Li Gong Xinting Lu Zengliang Miao Lihua Jiang Bingjian Liu Liqin Liu Pengfei Li Xu Zhang Zhenming Lü 《海洋学报(英文版)》2022,41(6):119-131
Complete mitochondrial genomes(mitogenomes) can indicate phylogenetic relationships, as well as useful information for gene rearrangement mechanisms and molecular evolution. Currently, the phylogenetic location of the genus Varuna(Brachyura: Varunidae) has not been well resolved mainly because of limited representatives(only two extant species). Here, we determined a new mitogenome of this genus(Varuna litterata) and added the published mitogenomes to reconstruct the phylogeny of Varunidae. The ... 相似文献
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棘皮动物(echinoderms)是海洋生境中所特有的无脊椎动物重要类群,本文全面比较分析了棘皮动物29个物种的线粒体全基因组。线粒体基因组主编码基因的分析结果显示,海胆纲Echinoidea和海参纲Holothuroidea物种的基因排列完全相同;海星纲Asteroidea物种之间的基因排列也完全相同,然而与海胆纲、海参纲相比,存在一个长片段的倒位。海百合纲Crinoidea的栉羽星Phanogenia gracilis和花形羽枝Florometra serratissima主编码基因的基因排列完全相同,地中海海羊齿和海百合Neogymnocrinus richeri与此相比,均存在一个蛋白质编码基因(nad4L)的易位。蛇尾纲Ophiuroidea真蛇尾目Ophiurida的3个科(阳遂足科Amphiuridae、辐蛇尾科Ophiactidae和栉蛇尾科Ophiocomidae)主编码基因的基因排列完全相同,而同属于真蛇尾目,另外一个科(真蛇尾科Ophiuridae)的白色真蛇尾Ophiura albida和灰色真蛇尾Ophiura lutkeni,与同目的前3个科相比,存在3个蛋白质编码基因(nad1、nad2和cob)的倒位。蛇尾纲蔓蛇尾目Euryalida的海盘Astrospartus mediterraneus,与真蛇尾目5个线粒体基因组相比,存在主编码基因的重排。棘皮动物线粒体单基因的变异位点特征显示,nad5、nad4和nad2基因是理想的分子标记基因。基于29个线粒体基因组的氨基酸序列,通过两种方法(邻接法和最大似然法)所构建系统发生树的拓扑结构完全一致。支持其下分的5个纲(蛇尾纲、海参纲、海胆纲、海星纲和海百合纲)均为单系群。线粒体基因组的数据支持棘皮动物动物在纲层次的亲缘关系为:(((海胆纲+海星纲)+海参纲)+蛇尾纲)+海百合纲,海百合纲作为棘皮动物中最为古老的类群,位于系统发生树的根部。基于线粒体基因组构建的系统发生树,支持所有的科均为单系群;综合系统发生树及主编码基因的基因重排分析,均支持真蛇尾目并非单系发生,真蛇尾目的有效性还值得今后深入研究。 相似文献
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7个海星动物线粒体基因组比较及基因变异位点分析 总被引:3,自引:0,他引:3
与单基因相比,线粒体基因组是一个完整的体系,具有信息量丰富等优点,在过去的十几年间被广泛地应用于后生动物关键类群的分子系统发育和群体遗传学的研究.本论文综合分析了海星纲7个物种(多棘海盘车、赭色豆海星、多棘槭海星、砂海星、长棘海星、棘冠海星和海燕)线粒体基因组全序列,全面揭示了海星纲线粒体基因组的基本特征.海星线粒体基因组均编码后生动物线粒体基因组标准的37个基因.7个海星线粒体基因组的基因排列完全一致;与海胆纲及海参纲楯手目线粒体基因组的基因排列相比,海星线粒体基因组的基因排列存在4.6 kb长片段的倒位.长棘海星属13个线粒体蛋白质编码基因的非同义替换率(Ka)与同义替换率(Ks)比值都低于1.000 0(为0.006 0~0.221 9),显示出较强的负(纯化)选择.对海星纲线粒体基因组的基因变异位点分析结果表明,nad5、nad4基因可作为备选的分子标记,应用于海星纲群体遗传学的研究中.同时,在长棘海星属线粒体基因组变异位点分析中,nad5、nad4基因仍然可作为备选的分子标记,用于分析长棘海星不同群体及物种之间的生物多样性,为合理利用其生物资源及其生物多样性的保护提供基础资料. 相似文献
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线粒体基因组是存在于真核生物线粒体中的重要遗传物质,可独立进行复制、转录和蛋白质合成。与核基因组相比,线粒体基因组具有长度相对较短、点突变率高等特点,被认为是研究生物系统进化的重要对象之一。近年来,在海洋生物研究中,线粒体基因组已被广泛应用于遗传分析、种质鉴定、分子标记挖掘以及系统进化研究等领域并取得了丰富的成果。棘皮动物在全球海洋中分布广泛,属无脊椎动物的高等类群,也是无脊椎动物向脊椎动物进化的重要节点生物。目前已有 97 个物种完成了线粒体基因组的测序。棘皮动物的线粒体基因组包含 37 个基因,其中 ND6 基因均分布于轻链。海胆和海星的基因排列顺序最为保守。棘皮动物在绝大多数情况下会使用 ATG 作为起始密码子,使用 TAA 和 TAG 作为终止密码子。根据现有的线粒体基因组数据和分析方法可以阐明绝大多数棘皮动物的分类与系统进化关系,但仍有一些物种的分析结果缺乏足够的可信度。棘皮动物线粒体基因组研究尚有很多方面仍需进一步开展。 相似文献
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为探讨石首鱼科(Sciaenidae)鱼类分子系统进化关系,采用生物信息学方法分析了黑鳃梅童鱼(Collichthys niveatus)、棘头梅童鱼(C.lucidus)、大黄鱼(Larimichthys crocea)、小黄鱼(L.polyactis)、鮸鱼(Miichthys miiuy)、白姑鱼(Pennahia argentata)、黄姑鱼(Nibea albiflora)和皮氏叫姑鱼(Johnius belangerii)共8种石首鱼类线粒体基因组全序列的基本特征。结果显示,除皮氏叫姑鱼外,其余7种石首鱼类编码的37个基因排列顺序与脊椎动物线粒体基因组相同。基因组碱基分布存在不均衡现象,A+T含量高于G+C含量。线粒体基因组的基因变异位点分析结果表明,ND4和ND5基因可作为COI基因的辅助分子标记,应用于石首鱼类群体遗传学的研究中。黄鱼亚科5种鱼类13个蛋白质编码基因的Ka/Ks比值远低于1,显示出较强的纯化选择。皮氏叫姑鱼与其他石首鱼间的遗传距离均较大且亲缘关系较远,暗示叫姑鱼属或为石首鱼类中较为原始的类群。基于线粒体基因组全序列构建NJ系统树支持黄鱼亚科和白姑鱼亚科亲缘关系较近的形态学结论。而基于去除控制区后序列和13个蛋白质编码基因序列构建的系统树则表明两亚科鱼类间的差别在非编码区更为明显。 相似文献